コード例 #1
0
        public override void Analyze(Analysis Mna)
        {
            Diode.Analyze(Mna, Gate, Source, IS, n);
            Diode.Analyze(Mna, Gate, Drain, IS, n);

            // The drain and source terminals are reversible in the JFET model, this
            // formulation is simpler than explicitly identifying normal/inverted mode.
            Expression Vgds   = Gate.V - Call.Min(Source.V, Drain.V);
            Expression Vds    = Drain.V - Source.V;
            Expression AbsVds = Call.Abs(Vds);

            //Vgds = Mna.AddUnknownEqualTo(Name + "gds", Vgds);

            Expression Vgds_t0 = Vgds - Vt0;

            Expression id = Call.Sign(Vds) * (Vgds >= Vt0) * Beta * (1 + Lambda * AbsVds) *
                            Call.If(AbsVds < Vgds_t0,
                                    // Linear region.
                                    AbsVds * (2 * Vgds_t0 - 1),
                                    // Saturation region.
                                    Vgds_t0 ^ 2);

            id = Mna.AddUnknownEqualTo("i" + Name + "d", id);
            CurrentSource.Analyze(Mna, Drain, Source, id);
        }
コード例 #2
0
ファイル: OpAmp.cs プロジェクト: yo1frenchtoast/LiveSPICE
        public override void Analyze(Analysis Mna)
        {
            // Implement Voltage gain.
            Node pp1 = new Node()
            {
                Name = "pp1"
            };
            Node np1 = new Node()
            {
                Name = "np1"
            };

            Mna.PushContext(Name, pp1, np1);

            // The input terminals are connected by a resistor Rin.
            Resistor.Analyze(Mna, Negative, Positive, Rin);
            Expression VRin = Negative.V - Positive.V;

            Expression Rp1 = 1000;

            CurrentSource.Analyze(Mna, pp1, np1, VRin * Aol / Rp1);
            Resistor.Analyze(Mna, pp1, np1, Rp1);
            Capacitor.Analyze(Mna, pp1, np1, 1 / (2 * Math.PI * Rp1 * GBP / Aol));
            Ground.Analyze(Mna, np1);

            // Implement voltage limiter.
            if (vcc.IsConnected && vee.IsConnected)
            {
                Node ncc = new Node()
                {
                    Name = "ncc"
                };
                Node nee = new Node()
                {
                    Name = "nee"
                };
                Mna.DeclNodes(ncc, nee);

                VoltageSource.Analyze(Mna, vcc, ncc, 2);
                Diode.Analyze(Mna, pp1, ncc, 8e-16, 1, VT);

                VoltageSource.Analyze(Mna, vee, nee, -2);
                Diode.Analyze(Mna, nee, pp1, 8e-16, 1, VT);
            }

            // Output current is buffered.
            Mna.AddTerminal(Out, (pp1.V - Out.V) / Rout);

            Mna.PopContext();
        }